Edo Kussell

Edo Kussell

Edo Kussell

Associate Professor of Biology, Physics
Ph.D. (Physics), Harvard.

Email:
Phone: (212) 998-7663
Fax: (212) 995-4015
List of Publications from Pubmed
Lab Homepage
Office:
New York University
Department of Biology
Center for Genomics and Systems Biology
12 Waverly Place, Room 206
New York, NY 10003

Research:

Classical studies of molecular biology revealed how cells sense their environment and respond to change, establishing the centrality of gene regulation in cellular physiology. Numerous mechanisms in bacteria, however, function in a largely deregulated way, generating a diversity of responses across the population, without necessarily sensing the environment. The existence of such stochastic mechanisms raises several (increasingly difficult) questions: (1) How do microorganisms employ stochasticity to their advantage? (2) Can we distinguish such adaptive stochasticity from useless noise that is simply too costly for cells to avoid? (3) How, and under what circumstances, do sensing mechanisms evolve? My research employs theoretical and computational modeling of bacteria populations in fluctuating environments, and comparative genomics of experimentally-characterized stochastic switches.

Closely related topics of research include the evolution of mutation rates, mutator phenotypes, and mutational hotspots in genomes. My other interests include protein folding and protein evolution.

Biosketch:

I received my Ph.D in Biophysics from Harvard University, where I worked with Eugene Shakhnovich on physical aspects of protein folding, including relaxation dynamics and packing of protein sidechains, high-resolution Monte Carlo simulation of folding, and theory related to protein evolution. I went on to do post-doctoral work with Stanislas Leibler at The Rockefeller University where, starting with simple models of antibiotic persistence in E. coli, we worked towards understanding in some generality the evolutionary advantage of stochastic phenotype switches in microorganisms. We eventually found that these mechanisms are intimately connected with information acquisition in a general sense, and that in certain cases the evolutionary advantage of phenotype switching can be expressed in purely information theoretic terms. I joined the NYU faculty in the Department of Biology in September 2006, where I am working on theory and modeling of evolution in microorganisms.

Teaching:

Biol-GA.1131 (cross-listed as MATH-GA.2852/PHYS-GA.2081) Biophysical Modeling of Cells and Populations

Areas of Research/Interest

Computational biology, evolution, and biological physics

Publications

PubMed Search Results:

Non-equilibrium physics and evolution-adaptation, extinction, and ecology: a Key Issues review.
Rep Prog Phys   (2014 Oct);   PMID: 25303141
Kussell E, Vucelja M
 
Evolution in microbes.
Annu Rev Biophys   (2013);   PMID: 23654305
Kussell E
 
Evolutionary dynamics of restriction site avoidance.
Phys Rev Lett   (2012 Apr 13);   PMID: 22587291
Qian L, Kussell E
 
Stochastic de-repression of Rhodopsins in single photoreceptors of the fly retina.
PLoS Comput Biol   (2012 Feb);  PMC3271025 free full-text archive
Sood P, Johnston RJ Jr, Kussell E
 
Optimal lineage principle for age-structured populations.
Evolution   (2012 Jan);   PMID: 22220869
Wakamoto Y, Grosberg AY, Kussell E
 
Evolutionary pressures on simple sequence repeats in prokaryotic coding regions.
Nucleic Acids Res   (2012 Mar);  PMC3315296 free full-text archive
Lin WH, Kussell E
 
Measuring cell identity in noisy biological systems.
Nucleic Acids Res   (2011 Nov);  PMC3241637 free full-text archive
Birnbaum KD, Kussell E
 
Interlocked feedforward loops control cell-type-specific Rhodopsin expression in the Drosophila eye.
Cell   (2011 Jun 10);  PMC3117217 free full-text archive
Johnston RJ Jr, Otake Y, Sood P, Vogt N, Behnia R, Vasiliauskas D, McDonald E, Xie B, Koenig S, Wolf R, Cook T, Gebelein B, Kussell E, Nakagoshi H, Desplan C
 
Individual histories and selection in heterogeneous populations.
Proc Natl Acad Sci U S A   (2010 Jul 20);  PMC2919897 free full-text archive
Leibler S, Kussell E
 
Polymer-population mapping and localization in the space of phenotypes.
Phys Rev Lett   (2006 Aug 11);   PMID: 17026205
Kussell E, Leibler S, Grosberg A
 
Phenotypic diversity, population growth, and information in fluctuating environments.
Science   (2005 Sep 23);   PMID: 16123265
Kussell E, Leibler S
 
The designability hypothesis and protein evolution.
Protein Pept Lett   (2005 Feb);   PMID: 15723636
Kussell E
 
Bacterial persistence: a model of survival in changing environments.
Genetics   (2005 Apr);  PMC1449587 free full-text archive
Kussell E, Kishony R, Balaban NQ, Leibler S
 
Side-chain dynamics and protein folding.
Proteins   (2003 Aug 1);   PMID: 12833553
Kussell E, Shimada J, Shakhnovich EI
 
Glassy dynamics of side-chain ordering in a simple model of protein folding.
Phys Rev Lett   (2002 Oct 14);   PMID: 12398757
Kussell E, Shakhnovich EI
 
A structure-based method for derivation of all-atom potentials for protein folding.
Proc Natl Acad Sci U S A   (2002 Apr 16);  PMC122771 free full-text archive
Kussell E, Shimada J, Shakhnovich EI
 
Excluded volume in protein side-chain packing.
J Mol Biol   (2001 Aug 3);   PMID: 11469867
Kussell E, Shimada J, Shakhnovich EI
 
The folding thermodynamics and kinetics of crambin using an all-atom Monte Carlo simulation.
J Mol Biol   (2001 Apr 20);   PMID: 11302709
Shimada J, Kussell EL, Shakhnovich EI
 
Recovery of protein structure from contact maps.
Fold Des   (1997);   PMID: 9377713
Vendruscolo M, Kussell E, Domany E